WST -- Widefield Spectroscopic Telescope: design of a new 12m class telescope dedicated to widefield Multi-object and Integral Field Spectroscopy

The Wide-Field Spectroscopic Telescope (WST) is a concept for a 12-m class seeing-limited telescope providing two concentric fields of view for simultaneous Multi-Object Spectroscopy and Integral Field Spectroscopy. The specified wavelength range is 0.35-1.6 microns. The baseline optical design reli...

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Veröffentlicht in:	arXiv.org 2024-06
Hauptverfasser:	Dierickx, P, Travouillon, T, Gausachs, G, Bacon, R, Cudennec, C, Bryson, I, Lee, D, Kragt, J, Muslimov, E, Dohlen, K, Kosmalski, J, Vernet, J, Lépine, T, Doel, P, Brooks, D
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Schlagworte:	Atmospheric diffusion Integral field spectroscopy Optical components Optical design Secondary mirrors Spectrographs Spectroscopic telescopes Spectrum analysis Subsystems Telescopes Tip tilt Wave fronts
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creator	Dierickx, P Travouillon, T Gausachs, G Bacon, R Cudennec, C Bryson, I Lee, D Kragt, J Muslimov, E Dohlen, K Kosmalski, J Vernet, J Lépine, T Doel, P Brooks, D
description	The Wide-Field Spectroscopic Telescope (WST) is a concept for a 12-m class seeing-limited telescope providing two concentric fields of view for simultaneous Multi-Object Spectroscopy and Integral Field Spectroscopy. The specified wavelength range is 0.35-1.6 microns. The baseline optical design relies on a corrected Cassegrain solution feeding Multi-Object spectrographs through fibres, while the central area of the field is propagated down to a gravity-stable Integral Field Station housing 144 spectrographs. The Cassegrain corrector also provides for atmospheric dispersion compensation. All optical components are within commercially available dimensions. With a view to minimizing risks and costs, to the maximum possible extent the telescope relies on proven subsystem solutions. An exception is the tip-tilt secondary mirror, which would likely have to provide some rejection of wind shake. An iteration of the optical design is ongoing, with a view to mitigating the weaknesses of the first baseline design. The telescope would be wavefront-controlled on-sky at the common-path MOS focus. Controls in the IFS path will need to compensate for the effect of subsequent differentials - wavefront and line of sight. There is no shortage of degrees of freedom and metrology solution to do so. The size of the dome is driven by the Nasmyth footprint and the height of the pier, which houses the IFS station. The baseline assumption is that a VLT-like enclosure would provide suitable shielding and ventilation.
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subjects	Atmospheric diffusion Integral field spectroscopy Optical components Optical design Secondary mirrors Spectrographs Spectroscopic telescopes Spectrum analysis Subsystems Telescopes Tip tilt Wave fronts
title	WST -- Widefield Spectroscopic Telescope: design of a new 12m class telescope dedicated to widefield Multi-object and Integral Field Spectroscopy
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